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Abstract

Beta-adrenoceptor (β-AR) exerts critical regulation of cardiac function. MicroRNAs (miRNAs) are potentially involved in a variety of biological and pathological processes. This study aimed to investigate the role of miRNA let-7e in the up-regulation of β(1) -AR and arrhythmogenesis in acute myocardial infarction (AMI) in rats. β(1) -AR expression was significantly up-regulated and let-7a, c, d, e and i were markedly down-regulated in the infarcted heart after 6 and 24 hrs myocardial infarction. Forced expression of let-7e suppressed β(1) -AR expression at the protein level, without affecting β(1) -AR mRNA level, in neonatal rat ventricular cells (NRVCs). Silencing of let-7e by let-7e antisense inhibitor (AMO-let-7e) enhanced β(1) -AR expression at the protein level in NRVCs. Administration of the lentivirus vector containing precursor let-7e (len-pre-let-7e) significantly inhibited β(1) -AR expression in rats, whereas len-AMO-let-7e up-regulated β(1) -AR relative to the baseline control level, presumably as a result of depression of tonic inhibition of β(1) -AR by endogenous let-7e. Len-negative control (len-NC) did not produce significant influence on β(1) -AR expression. Len-pre-let-7e also profoundly reduced the up-regulation of β(1) -AR induced by AMI and this effect was abolished by len-AMO-let-7e. Importantly, len-pre-let-7e application significantly reduced arrhythmia incidence after AMI in rats and its anti-arrhythmic effect was cancelled by len-AMO-let-7e. Notably, anti-arrhythmic efficacy of len-pre-let-7e was similar to propranolol, a non-selective β-AR blocker and metoprolol, a selective β(1) -AR blocker. Down-regulation of let-7e contributes to the adverse increase in β(1) -AR expression in AMI and let-7e supplement may be a new therapeutic approach for preventing adverse β(1) -AR up-regulation and treating AMI-induced arrhythmia.